Separator and valve therefor



Nov.- 16, 1943. R. G. LAWRY ETAL SEPARATOR AND VALVE THEREFOR Filed April 11, 1941 4 Sheets-Sheet 1 INVENTOR. and G. La

Ba 02, 055 6 M Ore SEPARATOR AND VALVE THEREFOR v Filed April 11, 1941 4 Sheets-Sheet 2 INVENTOR. gymorzd G. Lam y Nov. 16, 1943.

R. G. LAWRY ETAL SEPARATOR AND VALVE THEREFOR Filed April 11, 1941 4 Sheets-Sheet 4 INVENTOR. ficz fiaorzd G. BY 6 f 0W6 Patented Nov. 16, 1943 2,334,337 p SEPARATOR AND VALVE THEREFOR Raymond G. Lawry, Chicago, and Carl V. Ore, Harvey, 111., assignors to Roberts and Schaefer' Company, Chic'ago,lll., a corporation of Illinois Application April ll, 1941, Serial No. 388,028 6 Claims. (Cl. 209-493) This invention relates generally to separators or concentrators, for example, gravity separators, and is particularly concerned with new and'improved Valves or gates forYsuch separators or related machinery. V

The designation gravity separator or equivalent language employed herein refers to machinery or devices such as used, for example, in

the ore or coal dressing art, but is not intended .to limit the invention either to such specific machinery or to its use in any specific field. Gravity separators in which the invention has beenactually used are noted for explanatory purposes. They are machines wherein'a segregated raw ma terial, such as coal, ore or other mineral, is treated for separating it into its component parts according to the specific gravities of the particles thereof. The object of the treatment, as in the case of coal, may be to save the light, material (clean coal) and to reject impurities and admixtures of heavier specific gravities occurring in the raw feed in the form of so-called bony coal, shale slate, rock,

pyrite, tramp iron or the like, or, as in the case of certain ores or minerals, the object maybe to save the heavy components and to reject particles of lighter specific gravities.

Many devices of this general type are known. All of them employ the principle of gravity separation according to which the raw material is agitated by suitable means was to stratify in layers for discharge or removal, the heavier particles gravitating downwardly, the lightest particles collecting on top, and particles of intermediate gravities (middlings) massing at an inter! mediate leveli The agitation of the material bed in such an apparatus may b accomplished. in various ways, for example, mechanically, hydraulically, pneumatically, or by a combination of suitable agitating means. Among the best known devices of this kind are the jig or concentrator cell usually employing hydraulic agitation; the so-called dry-cleaner or air-cleaner using air impulses injected into the material bed; certain types of wet washers or hydro-separators employing hydraulically agitated separating pockets depending from a feed trough containingthe material bed; and apparatus using fluid media or making use'of heavy densityfluid media with or without uprising currents or mechanical agitation, for floating the light material and permitting the heavy constituents to drop downwardly for discharge.

1 -Whatever the particular structure and operation of such devices may be, supply and disfor controlling th flow of material relative to the point or space where the separation is ac-. complished. The gates, valves or gears, (the terms are interchangeably used) may also be of difier- 'ent structures; forexample, they may be made in the form of movable plates disposed in or adjacent to a discharge duct or feed passage, or in theuform of rotatable wheels, so-called star wheels, arranged within a housing disposed within or adjacent to a discharge duct or feed passage and operating to move the material. These valves are importantparts of the corresponding machine or device and are known to cause a good deal of trouble. The principal, requirement that could be formulated for these valves would include: 1. Positiveand reliable operation within a predetermined range from zero to maximum dev livery;

2.- Adjustability, that slow-up or acceleration, with respect to material to be delivered orv moved at any time according to the needs of the machine;

3. Uniform delivery in any adjusted operatin position; r g

4. Freedom from clogging, jamming or packing;

5. Ability to, handle any common admixture that may occur in the feed; without detriment to itsintended functions;

6. Structural and functional adaptability for gang operation with common driv for several valves and individual adjustment for each valve;

and i a 7, Coordination of. discharge valve or valves with the supply or feed equipment.

. The valves known heretofore donot fulfill these requirements with the desired certainty and reliability. The rotaryvalve which is probably most widely usedmay be taken as an example to illustratethepoint: Such valve comprises a rotatable shaft with radially or angularly disposed blades. The valve, rotates within a housingwhich charge valves, gates orv gearsare usually provided may be arranged, for example, within or as a part of a discharge duct or chute. It may be driven either by a constantlyoperating chain drive engaging a sprocket on the valve shaft, or by a reciprocating pawl which is actuated constantly during the operation of the machine so as to drive the valve by engaging a ratchet attachedto the shaft. i

. The rotaryspeed of sucha valve may be varied within certain limits,-for example, ,byadjusting the'throw of the pawl with respect to the ratchet, 'or" in the case ofa chain drive, by suitable gear reduction mechanisms; (but it is impossible in practical operation to slow down the valve below a certain speed which is usually too high for certain requirements. This drawback is particularly manifest in the case of gang operation where a plurality of valves are operated from a common drive. The requirement for adjustability (assuming, of course, constant operation of the main drive) with respect to zero delivery is therefore lacking.

Another shortcoming resides in the tendency of such a valve to pack or clog. It may happen, for

example, particularly in the case of handling finely divided wet materials, that the radial space between the blades of a rotary valve packssolidly or admixtures, for example, tramp iron.. The

valve jams rather easily, held by a piece of tramp iron or other admixture which may be lodged between the tip of one of its blades and the. wall of the housing, or across thefeed or discharge orifice, stopping material delivery altogether Other troubles may occur with such valves, and also with the previously -indicated',-difierently constructed valves, but the examples given above will suflice to show that known valves do not operate according to reasonably formulated, let alone ideal, operating requirements. The result is expressed infrequent stoppage, breakage of equipment, loss of operating time, and expenses for repairand replacement of parts. 3 I

A critical appraisal of the known valve structures reveals that they attempt to control the material movement by narrowing or constricting the passages through which the material has to move, or by forcing amounts of material-through predetermined channels. This-basic principle requires structures which effect an obstruction of thematerial passages, and the obstruction; no

sponsible' for the troubles noted" before.

yconcentrator cell of well known structure.

bottom or deck plate E2 of the cell is provided with perforations so as to admit into the separating compartment H water impulses for the placement and operation of the new valves in a. coordinated gang assembly; and

Fig. 7 is a diagrammatic sectional view through a hydro-separator using the valve or valves made according to the invention.

Like parts are designated by like reference numerals throughout the drawings. Details and elements which may be assumed to be well known in the art will be described only to' the extent required for supporting the understanding of the invention.

Referring now to Fig. l, numeral Ii indicates generally a separating compartment in a jig or The purpose of agitating the material supplied to the separating chamber. Numeral i3 designates a reinforcing and supporting rib for the perforate bottom plate i2,- and' i4 indicates. a mounting member. for; the bottom plate.v At i5 is shown: another mounting member securedto zthewa'll it of the discharge section il.. The light material collects on the top of the material bed and: is discharged over the overflow I8, and the heavy material, which gravitates downwardly respon sive to the hydraulic agitation, collects'atthe bottom and: is removed. by way of the discharge chute 59. This chute is provided with; acircular' housing 20 which'may be suitably mounted 011: U--

ment 29, responsive to rotation of the star wheh andmay be removed from this compartment by means of a suitable conveyor.

This. valve clearly demonstrates the use. of the old principle of controlling. the. materialv -move 1 ment by constriction or obstruction of the dis '"The' valve made in accordance'with our invention avoids these troubles and drawbacks. The'free passage of material is- 'promotedinstead of obstructed-.The new valve, employing novel principles, fulfills the previously enumerated requirements and objects, and contributes other advantages, all of which will appear from the detailed description rendered below with reference to the drawings. In these drawings,

Fig. 1 is a partial more or less diagrammatic section through a-separator, for example, a jig or concentrator cell, showing a rotary discharge wheel or valve toillustrate one example of the prior art; 1

Fig. 2 represents a view similar to Fig. 1, but showing the use of a valve or gate made: in ac cordance with the present invention;

' cleaner, using valves accordingto the invention;

Fig. G'represents the machine shown in Fig; 5

partial plane andzsec'tional views,. to show-the charge channel. The material passage is -com pletely blocked by the'bla'des of' the wheel in'the position shown, .the outer edges of thewheel practically rubbing against'the wallof theh'ousing 2!). Such a valve, as every other valve em! ploying thisbasicoperating principle,. requires "considerable power for its operation and cause thepreViousl-y noteddiificulties.

' 2 shows a section of a separator concenztrator such as: discussed with respect to. Fig: '1=, .inzthe same; diagrammatic, representation, but using a valve made in accordance with the present invention; Parts or details shown: in v Fig. 2', which are" identical with those shown in the structure/Fig. 1,. are markedby identical, but primed, reference numerals. Thuswcrhave'aga'i-n a. separating compartmentvor chamber I l, wherein the material masses on a perforate. bed plate I2 the latter resting onmounting members I3, I 4.. and l.5f, and separates responsivetc agita tion in accordance with the specific gravitiesrof the particles thereof.v The heavy'material: is discharged at one end of.therconcentrator'into the chute i fland the light materiaLfor: example, clean coal, in the; case of a coal cleane'r,,;isf discharged by way oftheoverflow l8. There may be' a. separate discharge for the middlings, if desired.

The new valve comprises two. segment-shaped plates 30 and 31 '(also seeFigA) firmly-secured to.afshaftf32.. This shaft extends transversely through the; corresponding upper portion 70f the to the stationary subfloor 45.

mounted in the bearings 33 and 34 secured to the walls3536. The-segmental plates 30 and 3| are interconnected by means of a scraper bar 31,-and -attached tothis bar is a" curved shield or tray plate33. The curvature of this plate may conformgenerally tothe curvature of the outer edge 39 of the twosegmenh-shaped plates 38 and 3| or, rather to say, to the curvature of the stationary' -tray A5. The segment-shaped plates 38 and 3| and the interconnecting scraper 31 holding the curved shield or ,tray plate 38 thus-form's. unit-whichis firmly attached to the rotatable shaft 32-and is'rotatable therewith relative to the concave stationary tray 45. The tray 45- constitutes a fixed subfloor and the tray 38 a movable subfloor-arranged above it.-

The discharge chute I9 comprises the two walls 48 and dl-which project through the partition 42 downwardly intothe u'pperportion of the-discharge compartment 29',the wall 40 con-- stituting the floor and the wall 4|, the roofof the chute. The wall 4| is shorter than the wall 40 and its lower edgeis substantially'in alignment with the shaft 32, as shownl The wall 40. (floor) is provided with an extension 40 stopping just short of the curved plate 38 in such a manner that the edge 43 oflthis plate is locatedin back of the extension 40. This downwardly projecting extension Ail of the floorfof the chute operates in the manner of a scraper relative to the movable subfloor 38. It may be made a separate part if desired. i

The stationary 3 subfloor, (tray 45) is arranged underneaththe movable subfloorf(tray plate 3.8)

as shown, extending transversely across the discharge or refusecompartmentand. being attached tothe' sidewalls 35 and36 bymeans of the flanges 4B and 41. The concave side or surface of the fixed subfloor is curved so as to conform to the arcuate motion of the scraper or 'feeder bar 31 of the movable subfloor'which is attached to the segment-shaped plates.

,The shaft '32 projects from the structureat one end thereof and carries an operating lever 5|]; as shown in Fig.- 4. If this lever were oscillated (in a reciprocating or swinging motion. in

counter-clockwise and clockwise direction, re-\ spectively, as seen in Fig., 2), the segment-. shaped end platesand 3| would take part in this motion a'ndwould therefore reciprocate or oscillate the shield" or tray 38 (movable sub-- floor) and discharge or scraper bar 31 relative Assuming that the valve shown in 4 is at rest, that is, that there is no reciprocating motion of the valve, the-heavymaterial collecting at the-bottom of the separating chamber II" will drop'down through the discharge chute l9 and will mass on the movable subfloor 38' and on the stationary subfloor45 substantially as shown in Fig.2.- The various parts are dimensioned and arranged in such a manner that floors assumes an angleof repose-at which sub stantially no downward discharge can take place, from the --right hand edge of the tray 45 (see charge takes place," however, responsive to actuation of the valve, that is, responsive to rotary oscillating-motion ofthe shaft 32 which holds and oscillatesthe'segment-shaped plates 30 and 3|, and thereforethe scraper ordischarge bar 31 and-the shieldor tray-like'subfioor 38. The amount-discharged "with one effective discharge Figs. 2 and stroke (counter-clockwise motion of scraper 31) and permitted todrop over the right hand edge of the stationary tray 45 (see Fig. 2) down-f -wardly into the refuse compartment 29' is subfines the discharge to the right hand end of the concave tray 45 and also actsin the manner of a tray, receiving material from the floor of the discharge chute.- t

During the clockwise arcuate motion of the tray 38 (return stroke), the extension 40' acts in the manner of a fixed scraper forcing a certainamount ofmaterial to move from. the movable subfloor 38 on to the fixed subfloor. Practical experiments have demonstrated that substantially no discharge takes place at the left hand end of the su-bfloor45 or in back of the subfloor 38; i

This structure and control confines. the discharge to a definite place, .controls and deterto permit free and unimpeded passage of any piece or admixture that may drop through the dischargechute. I j

An analysis of the structureand operation of the new valve will disclose dual functions for the, several elements of which it is composed. The valve can be described, for example, as comprising a stationary tray 45 for receiving material, and a movable scraper 31 for ;removing measured amounts; of material therefrom, together with means for: confining the removal of material to one end or edge of the stationary tray. Looking at the structure from a different angle, the shield 38 operates in the manner of a traywhich receives material and the depending extension of the wall 40 acts asa scraper to remove or cause discharge of measured amounts of material from themovable tray. The extension 4| also operates,'alone or together with the shield or tray 38, as a material feeder for'the stationary tray 45. In thespecific embodiment shown herein as an example, the discharge passage is free and remains unobstructed throughout the operation of a the valve. The flow of material is stoppedizero discharge) merely by allowing the materialto seek its own natural angle of repose. The valve thus makes use of natural gravitational forces in- I the materialfcollecting on these trays or sub- 1 Fig.2) into the refuse compartment 29'. Disstead of'impeding' them by force, and in doing so it provides for a more reliable operation and uses less power'for operation than previously known valves. Linear reciprocating motion may take the place of the arcuate movement of the scraper and movable tray. The end plates 383| are "segment-shaped, but they'can receive different forms if desired.

Fig. 3 shows, on an enlarged scale, one embodiment of amechanism-for oscillating the shaft 32 in acontrolled manner so asv to reciprocatethe discharge and feeder bar" 31' through its arcuate path relative. to the curved. tray 145. Pivotal-11y of forked extensions53'at the corresponding, end

of th'e link Similar forked members Bdmay be provided at the other end of the link 526R)! pivotal-attachment at point. 55 with admit-5o whichv is in" threaded engagement with .a rscrew shaft This screw shaft is journalled atsits uppenend' in a "bearing 58, and this bearing in turn. iszrotatably mounted at 59 in a bracket 60 which is part of amounting plate 6 I The mount: ing plate may be attached to the Wall of themachine for example, by bolts 62 and 63. The lower end of the screw shaft Elis journalled in ghee-r ing member '54 which is in pivotal engagementat Edwith a link 66. The other end: of this link may be pivotaliy mounted at 6-! on a crank arm orec, center G3 which may be rotated by means of a shaft 69; The drive 69-G8fil-i5t may be actuated constantly while ,the machine is in ,op-

eration. The adjustmentiof the valve from zero to maximumdischargeis carried out by the screw shaft as described below. v H

The screw shaft 5"! carries'at its upper end the hand Wheel H! which is keyed to it and by means of which the screw shaft can be rotated inits bearings 58 and 64 so'asto disposethe ut at any desired point; Assuming that the'nut '55 is placed on the screw shaft 5", in the uppermost position in which'itisshown in dct-tedlines, the

pivot points 5|,="i559 Will be in alignment and 'aswin ing or oscillating pendulous motion im parted; to the screwshaft l by the rotation of the crank 68 will have-substantially no effect on I th arm 5%., attached to the valve shaftfi'zl. If we assume, on the other hand, that the-screw shaft til has been rotated by the hand wheel '53 so as to dispose the nut 55in the extreme lewpositiom that isgadjacentto the bearing or journal ed,- the resultwill; be a maximum reciprocating displacementof the valve because the fullswinging or pendulous motion of the screw shaft .5?

-- responsive to rotation of the the crank 58 Will-be transmitted through the link 52 to the [arm 5.13. The first noted position of the nut :55 and link 52 (indicated in dotted lines inFigs 3) corresponds to zero or no delivery of the valve, and thelast noted position j (:nut adjacent to vbearing 64) corresponds to maximum operation of the v valve; or maximum delivery. Between these two points, from zero to maximum delivery, which can be predetermined by properly dimensioning ,the parts, there are infinited graduations simpl by v theproper setting of the nut 56 on the screw shaft 1 .57. The shaft as may he constantly rotated while the machine is in operation, but the throw oi the crank 53, although it is fully transmitted -to the screw shaft 57, is effective only inaccordance with ti'ieadjustment setting of the nut 55B (and also link 52), as described, The fidevice' therefore functions in the manner of a gear interposed-between the crank 68 and the operating arm 5%.

Y The bearing (5 which journals thelowenend of the screw shaft 5? maybe made as shown in full lines in Fig, 3, or it-maybe provided with an extension ll 'forpivotally securing-a link I21 which may extend to'another gear just like the one shown in Fig. Biol operating asecondvalve either on the same machine or on another-unit.

Attention is called to the factthatjig. 3 is diagrammatic throughout and intended solely for explanatory purposes. The various parts ins.-

it :Will be :clear; that all these pa rhsicfl-lt be dimensioned ,..and disposed with ,respectitp:

each other in; such; a manner as to perform rasexplained-above. we .a e

1 Another practicalexampleof using thelvinyene, tion is shown in- Figs.g5 and 6v which-illustrate, in. .a diagrammatic; manner an; embodiment of ,a'

QwQfillGd. air flow, cleaner ..0 f awell known s erile-i ture suchas isgdescribed;in,,;any one of several prior 'patontsgand othernpuplicationsi 1 tails ;not necessary for understanding the vention haveen mitted fromFiss .5 and 6- m hi thr ii ht e su p r ut i-whic y be connected with a suitable bin. The material ov rom r ght t i d w wardl a on d ck an i m on s d t ined a d 9.

t lle b air cu ents i ected in o h .=.i .-i,

chamber 37 which-is disposed underneath the eck r de ection T a puls s 8 th ou h. the a us d cko d sks, nd

sses; oat s m e ia b d 80 a o" e ct a t ati cai fif th m er ardin t he se s fic a a i e o t Pa t e hereo Intesmediate discharge chutes for the heavy material are provided at 88 and 89, as shown. At the leit hand end ofthe machine is a discharge chute 9i for'the middlings-an'd anoverflowor discharge W6 whi eilishirm tqrial sc tte ex: amplel is discharged. Each ot these discharge chutes maybe provided with avvalve device such a Figs 2, Sand 4). 1 {Ihe compartment 1 I4 receiving material from the intermediate discharge chuteafl is indicated diagramn'iatically by itsside walls 95. In

compartmentis provided. the curved or concave stationarytray S5, and a valve shaft 91 projects through the structurej Attached to this shaft are the suitably shaped end plates. 98 charge plunger 01' bar ;-99 interconnects platesiifl; and ashieldon movable tray fioor @1 09 is] attached to the bar v99, fall .in

accordance with the previously describeddo:

tails: The wan mi of the chute as projects downwardly (a separate member maybe pro vided in place of this extensionL-forrning ,a

shield :q em vabler subfl or' v" andq h il "11.

s mewh t. S e -tens as to n it h .P 1 DeI I T downwa mo me t o t at r-T ea veis uc r me n wi h s ch r e-chut 9 sle a t1y i the o coa nx I I atine r on ve-to the ctuat o h sha t have been placed in this drawing on exagger- 7 rated angles so ias vto facilitate the understand;

L63 in a'pendulous -m otion relativeto thesta-v tic-nary subfloor or tray [01. 7

T l e c a n ith the ha e ate 6- s mi ar,- t the re i u v d scr bed ve except that its position is reversedfor operative, reason The wire ha its sha t 108 a djit suitablygsl aped; end plates 1199. Thes e end l t s r inte cc ne tedbvmea s .of a shaped memloerswhich gnay be 7 formed I of; sheet material to p ovi e: a f ont W l o s ape surface 1| t0;

tak n mania s 1 the T disc arge or s r per bar cribed in connection with the stl'llf i i ie A the .end I of previously described valves, and therearsection' III, taking the, place of the shield or movable tray or'subfloor I06 and I of the valves provided underneath the chutes 88' and 89, re-

spectively. A curved or concave stationary subfloor H2 is disposed underneath the movable subfloor. This last notedvalve discharges over the left hand edge II3 of the subfioor II2, while the other valve discharge over the right hand edges of the subfloor I01and 96, respectively The operation of these valves is similarto and;

is believed to be self-explanatory from theremarks previously made with respect to theIvalve structures already described in detail. The valve coacting with the chute 88 discharges into the,

This separator may also be provided with a supply valve shown in Fig. 6 at the upper right hand end of the structure. The supply valve may again be of a structure such as previously described, comprising, as indicated in Fig. 6,

segment-shaped end plates I20 movably, con,-

nected with a shaft I2I and transversely or crosswise interconnected by a member having a front wall I22 and a shield or movable tray or feeder and scraper bar, discharging measured or controlled amounts of materialfrom thesupply bin 86 into the, separator. It will be'observed that the protective shield or 'movable'subfloor charge chute-88. Each valve has its own actuating and adjusting means which, in the caseof the valve having the operating arm I30, com

prises the link I33 pivotally attached to the nut I34which is in threaded adjustable engagement with the screw shaft I35. This screw shaft is pivotally mounted in a bearing attached to'the fixed bracket I36 and is provided with a hand wheel I31 for adjusting the position of thenut I34 (and link I33) on the. screw shaft. A bottom bearing I38 journals the screw shaft I35 at its lower end. This bottom bearing is in piv- "otal engagement with alink I39 which is connected by means of a turnbuckle I40 to'a link I4I pivotally connected to a bearing I 4.2 which journals the screw shaft I43 of the setting and discharge chute 88. The journal or bearing I48 'is pivotally connected with the link; I50, and this 1 last named link is finally connected with a beareccentric which is operated from a shaft I52.

' subfloor section I23. The latter may be made of sheet'material firmly attached at each end to the segmentshaped plates I20, for example, bymeans of welding. The front wall I22 acts as a adjusting device for the arm I3I attached to the shaft I03 which is part of the" valve coacting with the intermediate discharge chute 89 (see Fig.6) The bearing I42 for the screw'shaft I43 is pivotally connected 'witha link I45 attachedto a turnbuckle I46 which connects withfa link I41.

The latter is in pivotal engagement with a bearing I48 for the lower end of the screw shaft 149 which is partof the adjusting and setting mechanism for the valve coacting-with the intermediate ing pivoted at I5I on a suitable crankarm or The shaft I52, as shown in Fig. 6, maybe rotated by suitable means, for example, a chain drive I53, from a sprocket I54 on" a shaft I55 which is rotated by a suitable drive, for example,

a belt or chain I56 from a gear I51 operable by,

"a suitable motor; The gear may be an adjustable or tray I23 is disposed in back of the fixed "floor I24 of the supply bin, this fixed floor constituting a scraper member "such as "the floor exten-- sion 40' in Fig. 2. The surface I25 constitutes; in this embodiment, a. member operating inthe manner of the stationary subfiooror tray shown in Fig. 2. The operation of this'sup'ply valve is similar to the operation of the other previously described valves,

of ,repose exactly as the material discharged through the chutes 88, 89, 90 will mass on the trays or fixed subfloors 96, I01, and H2, respectively.

Fig. 5 shows mechanism for the various valves from the outside. The valve shaft I08 ofthe valvecoacting with the discharge chute 90 (middlings chute) is provided with an operating arm I30. -A similar operating arm I3I is keyed to the shaft 103 of the valve coacting with the. discharge chute 89,

,and a similaroperating arm I32 is attached to the shaft;3 1,of the valve coacting withthe dis,-

The wall I22; ofthe cross member which interconnects the segment-- the machine and the operating,

plied .to a concentrator oriseparator of an entirely different type, namely, a so-called hydroseparator, examples of which are shown in .U. S. Patents v1,594,626 and 1,760,293. Fig. 7 shows an various valves; 3 U

It is desirable to coordinate the operation of mg. trough I10. 'coal, may be supplied to this trough, together with a,liquid,'f0r exampla water. At one or at several pointsthe-trough may be provided with so-called separating pockets, one of which. is "shown inFig. 7 at I15. An uprising column of or variable speed reduction gear so as to determineand adjust the speedof rotationof the shaft I52 and therewith the oscillating speed of the the feed or supply valve (see Fig. 6', upper right corner) with the speed of the discharge valves. This is accomplished by providing on the shaft "I55- (Fig. 6) a-cam or eccenter drive I00 (Fig.5)

for actuatirlgthe; arm I6I which oscillates the supply valve shaft I2I., Therefore, the oscillating speed of the supply'valve will always be cori related with the oscillating speed of the various discharge-valves. The stroke of the supply valve is adjustable by means of nuts employed for fixing the arm IOI on the arm attached to and actuated by thecam drive I60. I

. Fig. '7 indicateshow the invention can be apembodiment of such a separator diagrammatically, partly in plane View. (wall sections 20I) and partly in superimposed sections (section of float chamber and sectional view pocket-l15 and'trough I10).

, The separator comprises a downwardly slop- The raw material, for example,

of the separator water is, supplied tothis pocket through the structure I1I provided with the inlet I12. The

.pocket is equipped with a perforated plate I13 th o h .w he water u nts. u hes u units of one separator, in substantially the same manner, for example, as the common drive I50 in Fig. 5 connects witha plurality of individual valve drives. V

The requirements which were'initially stated to be desirable and to be the objects of this invention are fulfilled in all the embodiments shown. The valves'canbe operated within a certain predetermined range from. zero to maximum discharge operation; the discharge is uniposedwithin and acrosssaid passage'on which said material can mass assuming thereon aposi- I tion in whichitsdownward movement is subform in any adjusted position; the valves have rial either forsupplyorfor discharge. The unir form and unobstructed discharge without packing, jamming or clogging is promoted by the provision of a discharge or delivery passage (formed by the stationary tray (fixed subfioor) or its equivalent and the casing through which or into which the material is to be moved) having in every embodiment a cross-sectional area or capacity which is, at least as great as or is comparable to that of the supply or feed chute or duct through which the material is fed to the device. This may be demonstrated by examining, for example, Fig. 2. The stationary tray on subfloor 45 may also be considered in the nature of a partition for receiving material from the duct or chute l9 for delivery into the compartment 29'. The cross-sectional area or castantially inhibited, discharge means movably mounted above said support; for successively removingfrom the material'massed thereon substantially uniform amounts, actuating means for reciprocating said discharge means, uniformly operating drive means for said actuating means, and variably adjustable gear means interposed between said drive means and said actuating means for determining the reciprocatingstroke of said discharge means; said gear means comprising a drive member hingedly mountedat one end and secured to said uniformly operating drive meansat the other end, an arm hingedly con: nected with vsaid actuating means at one end,

, means for adjustably mounting the other end. of

pacity of the passage provided between the right hand edge of such partition and the housing may be similar to or, if desired, may be greater than that of the chute l9. The conditions in each and every embodiment are similar.

The examples given herein do not exhaust the possibilities of the invention, and are not intended to indicate any limitation inherent in the invention. The new valve and its control and operating principles may be applied to advantage in other types of machines aside from those described.

Changes may-be made within the scope and spirit of the appended claims, wherein we have defined what is believed to be new and what we desire to have protected by Letters Patent of the United States.

We claim as our invention:

1. A device for controlling the material which tends to gravitate in bulk in a material to be controlled by said device for automovement of H predetermined direction comprising a stationary and a movable tray constituting a support on which said material can mass at an angle of repose which tends to inhibit its free gravitational movement, scraper means coacting with said movable tray and forming part of an operating means for successively discharging from said support uniform measured amounts of material,

-actuating means for reciprocating the movable tray and the scraper means, constant stroke drive means for said actuating means, and means governed by the amount of material to be controlled by said device for automatically adjusting the operatively efiective drive stroke of said actuating means.

2. In combination with means forming a passage for a segregated materialtending to move therethrough downwardly in bulk, a support dissaid arm on said hingedly mounted drive member, and means governed by the amount of material, accumulated in said passage above said support for adjusting theposition of said arm on said drive member.

3. A device for controlling the movement of segregated material comprising a member forming the stationary floor of a downwardly directed material passage through which said material tends to gravitate downwardly in bulk, a stationary and a movable tray disposed adjacent thelower end of said floor and constituting a support on which said material can mass at an angle of reposewhich tends to inhibit its free gravitational downward movement, means coacting with said movable tray and forming part of an operating means for successively discharging from said support uniform measured amounts of material, actuating means for reciprocating the movable tray and the scraper means, constant stroke drive means for said actuating means, and means governed by the amount of matically adjusting the operatively effective drive stroke of said actuating means.

4. A device for controlling the movement of segregated material comprising a member forming the stationary floor of a downwardlyfdirected material passage through which said material tends to gravitate downwardly in bulk, means forming a movable tray disposed immediately below and adjacent to the lower end of said stationary floor, means forming a stationary tray disposed immediately below and adjacent to said movable tray and forming therewith a support on which said material can mass at an angle of repose which tends to inhibit its free gravitational downward movement, scraper means coacting with ,said movable tray and forming part of an operating means for successively dischar ing from said support uniform measured amounts of material, actuating means for reciprocating the movable tray and the scraper means, constant stroke drive means for said actuating,

scraper movable tray and forming :therewith a support on which said material can'mass at an angle of repose which tends to inhibitits free gr'avita "tional downward "movement/means on said movable tray forming a scraper for successive1y'dis chargingfrom said stationary tray'substantially uniform amounts of material, actuating means for reciprocating the movable tray and the scraper means thereon, constant stroke drive means ioroperating said actuating means, and means governed by the amount of material to be controlled by said device for adjusting the operat-ively eiie'cti've drive stroke of said actuating means. 7

r '6; A device for'eoi'itrolling the movement of segregated material comprising a member forming the stationary'fioor of'a downwardly directed material passage through which said material tends to gravitate downwardly in bulk, means forminga stationary subfioor disposed below the lower end of said floor and spaced therefrom, said stationary subfioor forming a support on which said material can mass at an angle'pf reass-ages? pose which tends to inhibit its free gravitational l downward movement; shield means forming a tray-dike movable subfioor disposed between said stationary subfloor and the lower end of said Stationary floor, scraper means carried by said shield means, actuating means for alternately moving said shield and said scraper means in a forward drive stroke away from the lower end of said stationary floor and retracting said shield means in a return stroke in back of said lower end Of the stationary floor whereby amounts of material massed on said support are successively discharged therefrom over. one edge thereof, actuating means for operating said shield means and the scraper means thereon to effect the alternate drive and return stroke movement thereof, and responsive to the pressure of the mass of material accumulated for discharge above-said device for adjusting the operatively effective stroke of said actuating means to determine the amounts of material discharged with each stroke.

' RAYMOND G. LAWRY.

CARL V. ORE. 

